ITK  5.2.0
Insight Toolkit
Examples/RegistrationITKv4/DeformableRegistration11.cxx
/*=========================================================================
*
* Copyright NumFOCUS
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
#include "itkFEMRegistrationFilter.h"
/* Example of FEM-base deformable registration in 3D */
constexpr unsigned int Dimension = 3;
using ImageType = itk::Image<float, Dimension>;
using ElementType = itk::fem::Element3DC0LinearHexahedronMembrane;
using ElementType2 = itk::fem::Element3DC0LinearTetrahedronMembrane;
using FEMObjectType = itk::fem::FEMObject<Dimension>;
using RegistrationType =
itk::fem::FEMRegistrationFilter<ImageType, ImageType, FEMObjectType>;
int
main(int argc, char * argv[])
{
const char *fixedImageName, *movingImageName;
if (argc < 2)
{
std::cout << "Image file names missing" << std::endl;
std::cout << "Usage: " << argv[0] << " fixedImageFile movingImageFile"
<< std::endl;
return EXIT_FAILURE;
}
else
{
fixedImageName = argv[1];
movingImageName = argv[2];
}
// Setup registration parameters
RegistrationType::Pointer registrationFilter = RegistrationType::New();
registrationFilter->SetMaxLevel(1);
registrationFilter->SetUseNormalizedGradient(true);
registrationFilter->ChooseMetric(0);
unsigned int maxiters = 20;
float E = 10;
float p = 1;
registrationFilter->SetElasticity(E, 0);
registrationFilter->SetRho(p, 0);
registrationFilter->SetGamma(1., 0);
registrationFilter->SetAlpha(1.);
registrationFilter->SetMaximumIterations(maxiters, 0);
registrationFilter->SetMeshPixelsPerElementAtEachResolution(4, 0);
registrationFilter->SetWidthOfMetricRegion(1, 0);
registrationFilter->SetNumberOfIntegrationPoints(2, 0);
registrationFilter->SetDescentDirectionMinimize();
registrationFilter->SetDoLineSearchOnImageEnergy(0);
registrationFilter->SetTimeStep(1.);
registrationFilter->SetEmployRegridding(false);
registrationFilter->SetUseLandmarks(false);
// Read the image files
using FileSourceType = itk::ImageFileReader<FileImageType>;
FileSourceType::Pointer movingfilter = FileSourceType::New();
movingfilter->SetFileName(movingImageName);
FileSourceType::Pointer fixedfilter = FileSourceType::New();
fixedfilter->SetFileName(fixedImageName);
std::cout << " reading moving ";
std::cout << movingImageName << std::endl;
std::cout << " reading fixed ";
std::cout << fixedImageName << std::endl;
try
{
movingfilter->Update();
}
catch (const itk::ExceptionObject & e)
{
std::cerr << "Exception caught during reference file reading ";
std::cerr << std::endl << e << std::endl;
return EXIT_FAILURE;
}
try
{
fixedfilter->Update();
}
catch (const itk::ExceptionObject & e)
{
std::cerr << "Exception caught during target file reading ";
std::cerr << std::endl << e << std::endl;
return EXIT_FAILURE;
}
// Rescale the image intensities so that they fall between 0 and 255
using FilterType =
FilterType::Pointer movingrescalefilter = FilterType::New();
FilterType::Pointer fixedrescalefilter = FilterType::New();
movingrescalefilter->SetInput(movingfilter->GetOutput());
fixedrescalefilter->SetInput(fixedfilter->GetOutput());
constexpr double desiredMinimum = 0.0;
constexpr double desiredMaximum = 255.0;
movingrescalefilter->SetOutputMinimum(desiredMinimum);
movingrescalefilter->SetOutputMaximum(desiredMaximum);
movingrescalefilter->UpdateLargestPossibleRegion();
fixedrescalefilter->SetOutputMinimum(desiredMinimum);
fixedrescalefilter->SetOutputMaximum(desiredMaximum);
fixedrescalefilter->UpdateLargestPossibleRegion();
// Histogram match the images
using HEFilterType =
HEFilterType::Pointer IntensityEqualizeFilter = HEFilterType::New();
IntensityEqualizeFilter->SetReferenceImage(fixedrescalefilter->GetOutput());
IntensityEqualizeFilter->SetInput(movingrescalefilter->GetOutput());
IntensityEqualizeFilter->SetNumberOfHistogramLevels(100);
IntensityEqualizeFilter->SetNumberOfMatchPoints(15);
IntensityEqualizeFilter->ThresholdAtMeanIntensityOn();
IntensityEqualizeFilter->Update();
registrationFilter->SetFixedImage(fixedrescalefilter->GetOutput());
registrationFilter->SetMovingImage(IntensityEqualizeFilter->GetOutput());
writer->SetFileName("fixed.mhd");
writer->SetInput(registrationFilter->GetFixedImage());
writer->Write();
writer2->SetFileName("moving.mhd");
writer2->SetInput(registrationFilter->GetMovingImage());
writer2->Write();
// Create the material properties
itk::fem::MaterialLinearElasticity::Pointer m;
m = itk::fem::MaterialLinearElasticity::New();
m->SetGlobalNumber(0);
m->SetYoungsModulus(
registrationFilter
->GetElasticity()); // Young's modulus used in the membrane
m->SetCrossSectionalArea(1.0); // Cross-sectional area
m->SetThickness(1.0); // Thickness
m->SetMomentOfInertia(1.0); // Moment of inertia
m->SetPoissonsRatio(0.); // Poisson's ratio -- DONT CHOOSE 1.0!!
m->SetDensityHeatProduct(1.0); // Density-Heat capacity product
// Create the element type
ElementType::Pointer e1 = ElementType::New();
e1->SetMaterial(m);
registrationFilter->SetElement(e1);
registrationFilter->SetMaterial(m);
// Run registration
registrationFilter->RunRegistration();
// Warp the moving image and write it to a file.
writer->SetFileName("warpedMovingImage.mhd");
writer->SetInput(registrationFilter->GetWarpedImage());
try
{
writer->Update();
}
catch (const itk::ExceptionObject & excp)
{
std::cerr << excp << std::endl;
return EXIT_FAILURE;
}
// output the displacement field
DispWriterType::Pointer dispWriter = DispWriterType::New();
dispWriter->SetInput(registrationFilter->GetDisplacementField());
dispWriter->SetFileName("displacement.mha");
try
{
dispWriter->Update();
}
catch (const itk::ExceptionObject & excp)
{
std::cerr << excp << std::endl;
return EXIT_FAILURE;
}
return EXIT_SUCCESS;
}
itk::HistogramMatchingImageFilter
Normalize the grayscale values for a source image by matching the shape of the source image histogram...
Definition: itkHistogramMatchingImageFilter.h:75
itkHistogramMatchingImageFilter.h
itkImageFileReader.h
itk::SmartPointer< Self >
itk::ImageFileReader
Data source that reads image data from a single file.
Definition: itkImageFileReader.h:75
itk::ImageFileWriter
Writes image data to a single file.
Definition: itkImageFileWriter.h:88
itkRescaleIntensityImageFilter.h
itkImageFileWriter.h
itk::ImageFileWriter::New
static Pointer New()
itk::RescaleIntensityImageFilter
Applies a linear transformation to the intensity levels of the input Image.
Definition: itkRescaleIntensityImageFilter.h:154
itk::Math::e
static constexpr double e
Definition: itkMath.h:54
itk::Image
Templated n-dimensional image class.
Definition: itkImage.h:86
itk::GTest::TypedefsAndConstructors::Dimension2::Dimension
constexpr unsigned int Dimension
Definition: itkGTestTypedefsAndConstructors.h:44